C++ Questions and Answers

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Yashas

05:56

"a prvalue (“pure” rvalue) is an expression whose evaluation computes the value of an operand of a built-in operator (such prvalue has no result object), or ..."

What does this mean?

1 hour later…

Yashas

07:00

" a template parameter object (since C++20)" is also considered as lvalue. Do template parameters have locations? Can I take their address?

2 hours later…

northerner

09:19

I need to take the log of the size of std::vector i.e. log(vec.size()). The compiler gives the warning warning: conversion from 'double' to 'std::size_t' {aka 'long long unsigned int'} may change value what's the best way to fix this?

PeterT

do the rounding explicitly, you seem to assigning the double result to a size_t

northerner

so the whole line is return floor(log(vec.size()) + 1) and the return type is size_t

northerner

09:49

@PeterT is return static_cast<std::size_t>(floor(log(static_cast<double>(vec.size())) + 1); right? The warning goes away but isn't there a possible loss of precision casting vec.size() to double?

3 hours later…

MangaD

12:53

1531

Q: What are rvalues, lvalues, xvalues, glvalues, and prvalues?

In C++03, an expression is either an rvalue or an lvalue. In C++11, an expression can be an: rvalue lvalue xvalue glvalue prvalue Two categories have become five categories. What are these new categories of expressions? How do these new categories relate to the existing rvalue and lva...

MangaD

13:10

@northerner There is a loss of precision if the mantissa is larger than 2^52. There is also a loss of precision when you print the number without any special formatting.

1 hour later…

Electrical_engineer_student

14:16

how to define a nested class's function outside a class template?

template <typename T>
class List
{
public:
// ingore other code
class Iterator;
Iterator getIT()const;
Iterator getLastIT()const;
};
template<typename T>
class List<T>::Iterator
{
// ignore other code
private:
friend class List;
explicit Iterator(Data* ptr)
:m_head{ ptr }, m_tail{ nullptr }, m_current{ nullptr }, found{ nullptr }{}

};

template<typename T>
List<T>::Iterator List<T>::getIT() const { return Iterator{ m_head }; } // this gives syntax error so I tried this
template<typename T>
List<T>::Iterator List<T>::getIT() const { return List<T>::Iterator{ m_head }; }// how to fix this?

nwp

Funny, we just solved the same issue on Discord. Exact same comments and identifier names.

Electrical_engineer_student

oh yeah I'm on discord LOL

Davi

14:32

Hi, morning everyone.

I'm learning C++, and can't find the mistake. It has to do with abstract classes and smart pointers (brb)

Electrical_engineer_student

show code

Davi

sorry I had a door bell to answer

Very sorry

here it goes

#pragma once
#include <string_view>
#include <string>

using std::string_view; using std::string;
class Someone
{
private:
string _name;
unsigned _skill;

protected:
Someone (string_view name, unsigned skill) : _name{ name }, _skill{ skill }
{ }

Someone (const Someone& another) : _name{ another._name }, _skill{ another._skill }
{ }

virtual ~Someone () = default;
public:

string_view getName () const { return string_view (_name); }
Someone& setName (string_view name) { _name = name; return *this; }

That's a .h

I have 2 classes inheriting from Someone

Here's one

#pragma once
#include "Someone.h"
class Newbie : public Someone
{
public:
Newbie (string_view name, unsigned skill) : Someone (name, skill)
{ }

Newbie (const Newbie& another) : Someone (another)
{ }

virtual string_view play () const override { return "Meh"; }
};

Another (basically identical, just overrides play differently)

#pragma once
#include "Someone.h"
class Pro : public Someone
{
public:
Pro (string_view name, unsigned skill) : Someone (name, skill)
{ }

Pro (const Pro& another) : Someone (another)
{ }

virtual string_view play () const override { return "Wow!"; }
};

OK now here's the problem

This class attempts to store a vector of shared_ptrs to Someone objects. I went as far as its constructors

#pragma once
#include <vector>
#include <memory>
#include "Someone.h"

using std::vector; using std::shared_ptr; using std::make_shared; using std::initializer_list;

class Everyone
{
private:
vector<shared_ptr<Someone>> _roster;
public:

Everyone () = default;

Everyone (const Someone& first)
{
_roster.push_back (make_shared<Someone> (first));
}

Everyone (initializer_list<Someone> all)
{
for (const Someone& one : all)
{
_roster.push_back (make_shared<Someone> (one));
}
}
};

(The second constructor of Everyone is irrelevant. I just posted it to see if it's the new syntax for writing initializer list constructors.)

It's a shame all indentation disappears... Is there markup to avoid that?

nwp

15:02

Post the code and then press CTRL+K.

But you can't mix code and text.

Davi

I see. But while cleaning it up to create a git repo, the error went away. At least at compile time.

Very weird.

Davi

15:36

OK, the mistake is back. Here is the repo

https://github.com/FourWingedKid/SO_abstract_classes_managed_pointers/tree/master/SO_abstract_classes_managed_pointers

code is Someone.h, Pro.h, Newbie.h, and Everyone.h

As soon as I uncomment any push_back command in Everyone.h I get the error

*"Someone:" cannot instantiate abstract class. The error leads me to xmemory, line 1915

Here's a snippet surrounding such line:

// STRUCT TEMPLATE _Wrap
#pragma warning(push)
#pragma warning(disable : 4624) // '%s': destructor was implicitly defined as deleted
template <class _Ty>
struct _Wrap {
    _Ty _Value; // workaround for "T^ is not allowed in a union"
};
#pragma warning(pop)

1915 is the like with the comment //workaround for "T^ not allowed in a union"

class Someone does have a pure virtual method, but I'm working with references, so it should work.

7 hours later…

Electrical_engineer_student

22:19

@Davi this link is not working for me

@Davi you can't create objects of an abstract class. In the constructor of Everyone you are passing in a 'Someone' object that object cannot exist and that could be a problem. The point of having an abstract class in your case is that to make a heterogenous vector like you tried to do. So make a vector of pointers to the base class and then store pointers to derived classes inside that. hopefully makes sense

take this example, here I created a dummy class called shape which stores derived class rectangle and circle

std::vector<std::shared_ptr<Shape>>v;

Point cord1(1.5, 9.9);
Point cord2(2.5, 9.87);

Circle circle(cord1, 10.5),circle2(cord2,9.95);
Rectangle rectangle(cord2, 5.5, 6.6);

v.push_back(std::make_shared<Circle>(circle));
v.push_back(std::make_shared<Rectangle>(rectangle));
v.push_back(std::make_shared<Circle>(circle2));

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